Background

Pre-term and post-term births are major determinants of neonatal mortality, including short- and long-term morbidity. In developing countries, where pre-term and post-term births are disproportionately common, the magnitude and underlying causes are not well understood, and evidence is required to design appropriate interventions. This study measured the incidence and identified risk factors of pre-term birth and post-term births in Ethiopia. In addition, it examined the effects of pre-term and post-term birth on neonatal mortality.

Method

This study is a portion of prospective cohort study conducted on 1152 live births born between April and July 2014 in seven hospitals in Tigray region, Northern Ethiopia. Neonatal mortality and birth outcomes were considered as dependent variables. Data were collected using a structured questionnaire and weekly neonatal follow up directed at midwives. Data were described using frequency, percentage, ratio of relative risk (RRR), and 95 % confidence interval (CI). We used multinomial and binary logistic regression to identify independent predictors of birth outcome and neonatal mortality respectively.

Conclusion

Socioeconomic and proximate factors are important predictors for pre-term and post-term births. Empowering women in terms of income status and controlling body mass index within the normal range are recommended. In addition, early detection and close antenatal follow-ups for mothers, who are at risk before and during pregnancy, are necessary to prevent both pre-term and post-term births.

Labour outcomes are the essence of successful prenatal programs and the launching of successful post-natal health. Pre-term and post-term births are defined as live births occurring at less than 37 weeks and at 42 or more weeks, respectively, and are associated with both short- and long-term childhood mortality and morbidities [1–5]. In recent studies, the prevalence of pre-term and post-term births are estimated to be 10 % and 5–10 %, respectively [6, 7]. Disparity in the burden of pre-term and post-term births is also widely reported [7, 8]. The highest burden of incidence rates are reported in Sub-Saharan Africa (12.0 %), and Eastern Africa (14.3 %), as compared to Europe (6.2 %) and Asia (9.1 %) [7, 8].

The aetiology of pre-term birth is multi-factorial and it is affected by social, psychological, biological and genetic factors. Its prevalence and risk factors depends on geographic and demographic features of the population studied. Hence, the results of studies from one area might not be applicable to another [6, 9, 10]. In general, previous studies indicated the factors associated with pre-term birth are maternal complications, condition of fetus, genetic influences, environmental exposure, infertility treatments, behavioural and socioeconomic factors, such as income, inadequate prenatal care, and iatrogenic prematurity [6, 11, 12]. Pre-term birth complications account for 35 % of the estimated 3.1 million global neonatal deaths [4], and are the second leading cause of death in children under 5 years of age [6, 9]. Both pre-term and post-term births are associated with poor short and long-term health outcomes. Pre-term infants face higher risk of several disabilities, including neuro-developmental impairments, gastrointestinal complications, cerebral palsy, sensory deficits, learning disabilities, and respiratory illnesses [13].

The morbidities associated with pre-term births often extends to later life resulting in physical, psychological, and economic costs [6, 14]. While there has been significant progress in care for premature infants, reducing the prevalence of post-term birth is more challenging and rates have even increased in some regions [15–17]. Recent studies showed that up to 13 % of post-term newborns develop neurological or developmental disorder by the age of 5 years and disproportionately exhibit attention deficit or hyperactivity-related problem behaviors [1, 18].

Evidence on the effect of post-term birth on neonatal mortality is not consistent. Some studies reported that post-term birth is associated with neonatal death (1, 4), while no association was observed in another study [19]. Post-term pregnancy has been associated with null parity, advanced maternal age and obesity, caesarean section-induced labour, prior post-term pregnancy, male gender of the fetus, and genetic factors in the literature [18, 20, 21].

To our knowledge, in Ethiopia, there is no a systematic evidence respecting the burden and predictors of pre-term, post-term birth and their associations with neonatal mortality. Evidence of the levels of pre-term and post-term births is important to design evidence based health care interventions to reduce the unacceptable prevalence of neonatal and childhood mortality in developing countries. Therefore, the present study aimed to identify the predictors of pre-term birth and post-term birth as well as the relationship of pre-term and post-term birth to neonatal mortality in Northern Ethiopia.

Study design

This report reflects findings from a portion of a large prospective observational study undertaken in one of the nine administrative regions of Ethiopia to investigate pregnancy outcomes and neonatal survival. The current study is a cross-sectional survey and analysis of prospective data on 1162 neonates delivered at selected hospitals between April and July 2014 in Tigray, Ethiopia.

Study setting and population

This study was part of a study conducted in seven randomly selected public hospitals in Tigray Region, located in northern Ethiopia. The Ethiopian healthcare system has a decentralized four-tier system of primary, district, zonal, and specialized hospitals. The primary care includes rural health posts nested into health centers serving populations of approximately 25,000. District hospitals form the tiers expected to serve catchments of 250,000. Zonal hospitals and specialized hospital serve 500,000 and 5,000,000 people, respectively. In Tigray Region, one of the nine administrative regions and two administrative cities in Ethiopia, there are 15 public hospitals categorized as zonal (6), one specialized hospitals (1), and the district and primary health care (8). All hospitals provide comprehensive maternal and newborn services including delivery service free of charge. Seven hospitals were selected by simple random sampling from across the region using lottery method [22].

Data collection

Data were collected using a pre-tested structured questionnaire and checklist partially based on the World Health Organization’s verbal autopsy for neonatal deaths [23]. Data on maternal and obstetric characteristics were derived from the antenatal care record, through a post-partum interview with the mother and/or assessment of the neonate and mother. Data collectors interviewed all mothers, within the first 6 h after delivery, who experienced a live birth at the selected hospitals. Data related to the newborns were collected at birth by midwives and, during follow up, by either midwives or health extension workers. Mothers and neonates were followed for 28 days using three data collection methods/alternatives. On the first contact, the data collector visited the neonate daily, while he/she was in the hospital. At birth, socio-demographic and economic, neonatal, maternal and health service related characteristics were recorded, measured, and assessed. The second data collection method occurred after the mother was discharged, with the data collector communicating with the mother every 7 days either using a phone call or by creating a liaison with the health extension workers, inquiring about the neonatal condition and survival in every phone call. The third data collection alternative occurred for mothers who were not at home during the scheduled visit, when a revisit was arranged. When neonatal or maternal death occurred, the date and time of death was recorded and further contact was discontinued with the participant. To ensure the quality of data collected, one day training for the data collectors and health extension workers was provided on how to collect the data and how to follow the mothers. A pre-test was conducted on 5 % of the sample size to improve clarity and modify the data collection instruments.

Inclusion and exclusion criteria

Mothers with neonates born at the selected facilities between April and July 2014 were eligible for the study. Mothers referred from other health facilities or coming directly from their homes and admitted to one of the seven participating hospitals within six hour of birth were also included. Mothers who came from other neighbouring regions of Ethiopia, who were not able to speak, who had a psychiatric diagnosis, and/or who had no companion were excluded from the study.

Assessment and definition of outcome and exposure variables

We used previous literature and Mosley and Chen’s conceptual framework [24] with some modifications as a basis for categorization of the independent variables. This analytical framework is used for child health studies and combines sociological and biological explanatory models into a single conceptual framework by sorting independent variables as either distal or proximal determinants, in creating a hierarchy for analysis. The model set up by Mosley and Chen was adapted to fit specific areas, including neonatal health.

This study had two outcome variables that were analyzed independently. The first outcome variable was neonatal mortality, which is death of a live birth baby within 28 days of birth, categorized into binary outcomes for death or survival. The second outcome variable was birth outcome, which is the onset of the labour determined by gestational age of the live birth. This variable was categorized according to World Health Organization’s definitions of pre-term, term births, and post-term births [25]. Pre-term birth is “any birth before 37completed weeks of gestation or fewer than 259 days since the first day of the women’s last menstrual period” [25]. A term birth is a “birth between 37 completed weeks up to 41 completed weeks of gestation” [25]. A post-term is “any birth after 41 completed weeks of gestation or 294 days and above since the first day of the women’s last menstrual period” [25].

Gestational age was estimated based on the last menstrual period. If mothers were not able to recall their last menstrural period, gestational age was estimated using ultrasound methods.

Data management and analysis

Birth outcomes were analyzed by categorizing into three outcomes variables (i.e., pre-term, term (base) and post-term) considered at the nominal level. Neonatal mortality was fit in a separate model categorized as death (coded “1”) or survival (coded “0”). Potential predictors for pre-term and post-term births were analyzed on the same model based on the assumption of multinomial logistic regression. The predictors were categorized as 1) immediate factors; 2) proximate factors (i.e., maternal, neonatal, and health service factors); and 3) distal factors (i.e., socio-economic and demographics variables). The independent variables considered for neonatal mortality were pre-term and post-term births.

A bivariate logistic regression was performed, and variables with likelihood ratio test P-values of less than 0.05 were retained in the multiple regression models. Variables considered in the final model by using the hierarchical method of multiple regression reflected immediate factors (Model 1) followed by proximal factors (Model 2) and, finally, distal factors being added (Model 3) as predictors of pre-term and post-term births. Multinomial and binary logistic regression was used to estimate the relative risk ratios (RRR) and relative risk (RR) as well as corresponding 95 % confidence interval (CI) for the predictors of birth outcomes and neonatal mortality at P < 0.05. During model building, cofounders were checked by looking for 15 % change in the regression coefficient. Interaction between predictor variables was tested at a significance level P < 0.05 by including an interaction term in the multivariate model. Multicollinearity among independent predictors was tested using Variance Inflation Factor. Data was entered, cleaned, and analyzed using STATA™ Version 11.0 Statistical Package.

Response rate and outcome of the follow up

In this study, we found a high response rate of 99.14 % (n = 1152). We excluded 10 mothers from the study due to inconsistency and/or inaccuracy of their questionnaires. During follow-up, most mothers (i.e., 996) were followed by phone calls, with 112 mothers met by health extension workers, with 44 discontinuing due to neonatal death prior to discharge, and 60 lost to follow up.

Socio-economic and demographic characteristics of participants

Over half (57.2 %) of the mothers were between 25–35 year. Regarding education, 275 (23.9 %) of the study participants were unable to read and write (no formal education). Of all mothers, 327 (32.2 %) were in the low monthly income category (i.e., <500 Ethiopian birr). In this study, we found a prevalence of 93 (8.1 %) and 69 (6 %) pre-term and post-term births, respectively. Our participants showed high rates of pre-term and post-term births of 21 (22.5 %) and 18 (27 %) in Adwa and Adigrat hospitals respectively. Mothers in the medium and high income categories had lower risk of pre-term and higher risk of post-term births with relative risk ratio (RRR: 0.36, CI: 0.19–0.68; RRR: 1.93, CI:1.01–3.71) respectively. Mothers, who were unmarried, widowed, and divorced [81 (7 %)], were at higher risk of post-term births (RRR: 2.58, CI: 1.25–5.29) (Table 1).

Table 1

Association of selected socio-demographic characteristics with preterm and post term births on neonates delivered in Tigray, northern Ethiopia, April-July, 2014

Neonatal and maternal characteristics

Mothers, who had maternal complications during delivery [221 (19.2 %)], showed higher risk of pre-term delivery (RRR: 1.34, CI: 0.67–2.68) over term births. In relation to maternal BMI, 119 (10.6 %) were in the underweight and 96 (8.6 %) overweight categories; however, overweight mothers were found to be at greater risk for a post-term birth (RRR: 3.55, CI: 1.08–11.5) (Table 2).

Table 2

Association of selected Maternal and Neonatal characteristics with preterm and post term births on neonates delivered in Tigray, northern Ethiopia, April-July, 2014

Characteristics

Total live births

Preterm birth

Post term birth

Preterm & post term

No

%

No (RRR, CI)

No (RRR,CI)

P-value

Current age of mother

<20 year

95

8.2

10 (ref)

6 (ref)

ref

20–24 year

328

28.5

24 (0.67, 0.30–1.46)

22 (1.02, 0.4–2.6)

0.672,0.95

25–35 year

590

57.2

45 (0.68, 0.33–1.42)

29 (0.73, 0.29–1.83)

0.68, 0.51

≥ 35 year

139

12.1

14 (0.97, 0.41–2.31)

12 (1.39, 0.50–3.88)

0.97, 0.52

Birth interval

Not applicable

537

46.6

40 (ref)

34 (ref)

<Two years

127

11.0

10 (1.08, 0.52–2.32)

10 (1.27, 0.60–2.65)

0.83, 0.52

>Two years

488

42.4

43 (1.18, 0.75–1.85)

25 (0.81,6.47–1.38)

0.44,0.44

Ever use of FP

Yes

650

56.4

48 (ref)

38 (ref)

No

502

43.6

45 (1.24, 0.82–1.89)

31 (1.08,0.66–1.76)

0.32,0.75

Disease

Yes

100

8.7

7 (ref)

5 (ref)

No

1052

91.3

86 (1.19, 0.53–2.66)

64 (1.24,0.48–3.18)

0,66,0.642

Maternal complications

Yes

221

19.2

27

10

No

930

80.8

66 (0.55, 0.34–0.9)

59 (1.34,0.67–2.68)

0.016,0.395

Mode of delivery

Vaginal

846

73.5

75

46

Caesarean section

241

20.9

13 (0.59, 0.32–1.08)

16 (1.18, 0.65–2.14)

0.01,0.56

Instrumental

65

5.6

5 (0.91, 0.35–2.35)

7 (2.08, 0.89–4.83)

0.81,0.08

Sex

Male

610

52.9

50 (ref)

43 (ref)

ref

Female

542

47.1

43 (0.55, 0.34–0.89)

35 (1.34, 0.67–2.68)

0.016, 0.39

Neonatal length

<46 cm

151

13.4

46 (ref)

3 (ref)

46–56 cm

914

81.2

45 (0.13, 0.08–0.20)

60 (2.66, 0.82–8.66)

<0.001,0.10

>56 cm

61

5.4

2 (0.04, 0.05–0.32)

6 (4, 0.96–16.6)

0.002,0.06

Birth weight

<2500 gm

121

10.5

50 (111, 15–82)

1 (0.12, 0.016–0.94)

<0.001,004

2500–3500 gm

853

74.2

42 (8.6, 1.17–63)

50 (0.05–1.00)

0.034,0.05

>3500 gm

175

15.3

1 (ref)

18 (ref)

ref

Weight for gestational age

Appropriate

846

73.5

52 (ref)

47 (ref)

SGA

125

10.9

17 (2.44, 1.35–4.38)

8 (1.27, 0.58–2.76)

0.003,0.54

LGA

180

15.6

24 (2.42, 1.44–4.06)

14 (0.15, 0.8–3.0)

0.004,0.26

<0.01,0.158

Birth type

Single

1057

91.8

70 (ref)

66 (ref)

ref

Multiple

95

8.2

23 (4.38, 2.57–7.45)

3 (0.60, 0.185–1.97)

<0.001,0.40

Body mass index

Underweight

119

10.6

13 (ref)

4 (ref)

ref

Normal

907

80.8

72 (0.72, 0.38–1.34)

52 (1.69, 0.59–4.78)

0.30,0.32

overweight

96

8.6

6 (0.59, 0.21–1.61)

11 (3.55, 1.08–11.5)

0.31,0.04

Hypothermic

Yes

61

5.3

23 (ref)

6 (ref)

ref

No

1091

94.7

70 (0.1, 0.05–0.18)

63 (0.35, 0.14–0.86)

<0.001, 0.02

Predictors of pre-term and post-term birth

On multiple multivariable analyses, using hierarchical modeling of variables, we found BMI of the mother, birth type (i.e., single versus multiple) of neonate, length of neonate, monthly income, and marital status were independently associated with pre-term and post-term births relative to term births.

The risk for pre-term births relative to term births in a multiple birth scenario (i.e., twins and triplets) was 2.86 times greater relative to singleton births (RRR: 2.86, CI: 1.45–5.65); however, post-term birth was not associated with multiple births given the other factors in the model are held constant. Body length of neonates was also associated with pre-term infants, but not with post-term. Neonates, who were 46–56 cm and ≥56 cm at birth, were found to be 88 % (RRR: 0.12, CI: 0.07–0.21) and 99.95 % (RRR: 0.05, CI: 0.01–0.4) at lower risk of pre-term birth relative to term births. Post-term birth was not associated with length of the neonate. Relative to term births, overweight status was significantly associated with post-term births at a 3.88 times higher relative risk (RRR: 3.88, CI: 1.01–15.05). Underweight maternal status relative to normal weight status showed a decrease in relative risk by a factor of 0.47 of delivering pre-term births relative to term births when other factors are held constant (RRR: 0.47, CI: 0.22–0.99). Marital status was also associated with post-term births. Neonates from mothers who were either widowed, divorced, separated, or unmarried relative to married mothers were 2.43 times at higher relative risk for post-term birth than term births (RRR: 2.43,CI:1.02–5.80), but pre-term births were not significantly associated on the final models. Regarding income status, mothers in the medium income category were 74 % less relative risk to experience a pre-term birth than mothers in the low income category (RRR: 0.26, CI: 0.12–0.50). Mothers in the high income category were 2.17 times more at relative risk for delivering a post-term birth relative with mothers in the low income category (RRR:2.17, CI:1.1–4.3) (Table 3).

Table 3

Multivariable regression of the predictors of preterm and post term births delivered in Tigray, Northern Ethiopia, April-July 2014

Model 1:

Model 2:

Model 3:

Immediate

Factors

Proximal

Factors

Distal

Factors

Predictors

RRR& CI preterm

RRR & CI post term

RRR& CI preterm

RRR& CI post term

RRR & CI preterm

RRR & CI post term

Body mass index

Normal (ref)

ref

ref

ref

ref

Underweight

0.59,0.29–1.2

1.7,0.59–4.82

0.47,0.2–0.99

2.18,0.6–7.2

Overweight

0.57,0.1–1.69

3.34,1.1–11.2

0.5,0.15–1.63

3.88,1.01–15.05

Weight for age

Normal

ref

ref

ref

ref

SGA

1.03,0.51–2.0

1.66,0.71–3.9

1.02,0.48–2.1

1.56,0.6–3.9

LGA

2.48,1.37–4.4

1.47,0.77–2.8

1.87,0.95–3.6

1.57,0.8–3.0

Multi Birth (“sin”ref)

2.74,1.44–5.2

0.65,0.2–2.31

2.86,1.4–5.65

0.75,0.2–2.7

Female (“male” ref)

1.09,0.67–1.7

1.2,0.76–2.09

1.1,0.65–1.84

1.3,0.77–2.2

Complication (“yes”ref)

0.5,0.34–0.9

1.34,0.7–2.1

0.69,0.4–1.17

1.33,0.66–2.7

0.85,0.47–1.5

1.34,0.6–2.8

Length of neonate

< 46 cm

ref

ref

ref

ref

46–56 cm

0.15,0.09–0.2

2.57,0.76–8.6

0.12,0.07–0.2

2.3,0.69–3.0

> 56 cm

0.05,0.01–0.4

3.68,0.8–15.8

0.05,0.01–0.4

2.6,0.47–14.3

Monthly Income

Poor

ref

ref

Medium

0.26,0.12–0.5

1.2,0.55–2.6

Rich

0.6,0.34–1.06

2.17,1.1–4.3

Marital status

Married

ref

ref

Others

1.62, 0.6–4.2

2.4,1.02–5.8

*BF breast feeding, ref reference, sin single birth

Effect of pre-term and post-term births on neonatal mortality

There were 68 neonatal deaths yielding a neonatal mortality rate of 62.5 per 1000 live births. Of these, 42 (62 %) were pre-term and only one was post-term birth. On bivariate analysis, pre-natal birth (RR: 7.06, CI: 4.5–10.9), history of abortion, history of stillbirth, low birth weight, and being a primiparae were associated with high risk of neonatal mortality (Table 4).

Table 4

Characteristics of mothers and neonates with neonatal mortality on neonates delivered in Tigray, northern Ethiopia

Total live births

Neonatal death

Characteristics

No

%

No

(RR,CI)

P-value

Residence

Rural

397

34.46

38

ref

ref

Urban

755

65.54

30

0.39, 0.24–0.6

<0.001

Preterm

Yes

93

8.07

42

7.06, 4.5–10.9

<0.001

No

1059

91.93

26

ref

Post term

Yes

69

94.01

1

0.23, 0.03–1.6

0.14

No

1083

5.99

67

ref

Term

Yes

990

85.94

41

0.24,0.15–0.4

<0.001

No

162

14.06

27

ref

Neonate out born

Yes

1085

94.18

18

ref

ref

No

67

5.82

50

5.68, 3.53–9.1

<0.001

History of abortion

Yes

172

14.93

18

0.49, 0.29–0.8

No

980

85.07

50

ref

0.007

History of still birth

Yes

91

7.9

15

ref

No

1061

92.1

53

0.29, 0.17–0.5

0.006

Birth weight

Low birth weight

121

10.53

35

10.5, 4.2–25.9

<0.001

Normal

853

74.24

28

1.19, 0.46–3.0

0.715

Overweight

175

15.23

5

ref

ref

Number of children

Primiparae

610

52.95

35

ref

ref

2–4 children

424

36.81

17

0.7, 0.40–1.23

0.206

Multiple (≥5)

118

10.24

15

2.36, 1.35–4.1

0.022

On multivariable regression of the primary independent variables and other secondary variables using stepwise backward elimination, we found pre-term birth as a significant predictor of neonatal mortality, but post-term births were not significantly associated with neonatal mortality. Pre-term births were at a 2.45 times higher risk for neonatal mortality compared to non-pre-term births (RR: 2.45, CI: 1.45–4.04). However, post-term births were not found to be associated with neonatal mortality (RR: 0.45, CI: 0.07–2.96) (Table 5).

Table 5

Multivariable analysis on the association of preterm and post term birth on neonatal mortality in Tigray, northern Ethiopia

Characteristics

(RR,CI)

P-value

(ARRa,CI)

p-value

Residence

Rural

ref

ref

Urban

0.39, 0.24–0.62

<0.001

Preterm

Yes

7.06, 4.55–10.94

<0.001

2.45, 1.45–4.04

<0.001

No

ref

Post term

Yes

0.23, 0.03–1.64

0.14

0.45, 0.07–2.96

0.412

No

ref

Term

Yes

0.24, 0.15–0.39

<0.001

No

ref

Neonate out

Yes

ref

ref

No

5.68,3.53–9.16

<0.001

History of abortion

Yes

ref

No

0.49, 0.29–0.81

0.007

0.47, 0.33–0.67

<0.001

History of still birth

Yes

ref

No

0.29, 0.17–0.49

0.006

0.38, 0.29–0.51

<0.001

Birth weight

Low birth

10.5,4.24–25.9

<0.001

5.17,1.94–13.78

<0.001

Normal

1.19,0.46–3.04

0.715

1.09,0.43–2.80

0.844

Overweight

ref

ref

Number of children

Primiparae

ref

ref

2–4 children

0.7,0.40–1.23

0.206

0.81,0.82–0.82

<0.001

Multiple (≥5)

2.36,1.35–4.12

0.022

1.92,1.48–2.62

<0.001

aARR Adjusted Relative Risk

No confounding, interaction and multicollinearity were detected in this study.

In this study, we determined the predictors of pre-term and post-term births. The overall prevalence of pre-term and post-term births was 8.1 % and 6 % respectively. In addition, we examined the effect of pre-term and post-term births on neonatal mortality. Hence, delivering multiple births, underweight and overweight mothers, short length of the neonate, low and high reported income of mothers, and mothers who were single were independently associated with pre-term and post-term births. The prevalence of pre-term birth was higher than previous reports from Iran and southern Brazil [10, 26] but lower than recent reports from a systematic review of the World Health Organization studies in Bangladesh, Africa, and Debremarkos Ethiopian studies [6, 8, 27]. This variability may be explained in terms of geographical and demographic features of the populations being studied, as pre-term births are known to vary between regions and different populations [6, 9]. In addition, the differences may be attributed to timing of the studies.

Through efforts such as the Millennium Development Goals and health sector development programs, services provided for mothers for reducing and/or preventing pre-term births have been strengthened [16, 17], including within our study area. Thus, these efforts may have contributed to lowering numbers of pre-term births. Similarly, the increasing coverage and accessibility to primary health care services might also have contributed to reducing the prevalence of pre-term births [22].

In the present study, pre-term births were identified based on the last menstrual period, which is reported to underestimate pre-term births [28]. As for the higher rate, our study was conducted only in hospitals where mothers were diagnosed with possible complications. For this reason, they would be more likely to experience pre-term births. However, educated and more affluent mothers may visit specialized hospitals, thus lowering the pre-term birth rate since increased education and higher income are known to lower pre-term birth [29].

The prevalence for post-term birth in our study is lower than findings in two recent studies in Sweden and Holland; however, it falls within the global prevalence range of 5–10 % [6, 7, 18]. The relatively low rate of post-term births may be due to the relatively young age cohort (below 35 years) of the mothers involved in our study. Advanced age is a well-established risk factor for post-term birth [18, 20]. This variance may also relate to inaccurate measurement of the last menstrual period, since some mothers may not able recall their date accurately, may have menstrual irregularities and abortion. This inaccuracy of gestational age could underestimate the post-term birth prevalence in our study.

Multiple birth was an independent predictor for pre-term birth which is consistent with previous findings [30, 31]. Multiple pregnancies are more likely to encounter complications and health risks than their counterparts. As a result, this complication may lead to earlier delivery in their pregnancy either electively or spontaneously. Furthermore, singleton pregnancies are less likely to experience malnutrition than multiple pregnancies [12]. Thus, the nutrition of the mother and neonate may contribute to immaturity of neonate and premature labour. In the present study, neonates from mothers with low reported income were more likely to experience pre-term deliveries. This finding is similar with previous reports in Ethiopia, and Iraq [8, 11, 12]. Socioeconomic factors were another independent predictors for pre-term births [6]. The reason could be low socio-economic status mothers are more vulnerable to low health service utilization, stressful life circumstances, as well as physical and psychological harmful activities, which, in turn, may result in undernutrition and spontaneous pre-term birth.

Conversely, high reported income was significantly associated with post-term birth. This suggests that these mothers may engage in a sedentary lifestyle which may contribute to inappropriate weight gain and associated chronic diseases such as hypertension and diabetes mellitus during pregnancy, known risk factors for post-term birth [32, 33]. We are not able to determine the association between these diseases and post-term birth in our study because of the small sample size and inadequate power to detect the effect. Furthermore, income level was not determined using a wealth indices with appropriate statistical analysis, but rather it was determined based on the response of mothers which may impact on the estimation accuracy.

Underweight mothers were at lower risk to give pre-term birth relative to term birth. Different studies conducted with different study designs and sample sizes indicate maternal underweight or low BMI was associated with pre-term delivery [34–37]. It is expected that low BMI mothers may be exposed to under-nutrition and poor weight gain during pregnancy, resulting in subsequent premature delivery. However, this study finding contradicts with these previous findings. This suggests that the reasons for prematurity were not caused by BMI but there may be other unexplored factors in our study area. But the statistical analysis we used in this study may not robust to declare statistical significance. Hence it needs future study to assess effect of maternal BMI on birth outcome.

Being overweight was associated with post-term births in our study. This finding is in line with previous reports on association of BMI and post-term births in which they reported, as underweight is less associated with post-term births whereas obese and overweight mothers were being associated with post-term births [36, 37]. This might be related to overweight mothers being more susceptible to gestational diabetes mellitus and gestational hypertension/preeclampsia [32, 33], which are known risk factors for post-term births.

Mothers, who were unmarried, widowed, separated and divorced (single), were at higher risks of post-term births, which is inconsistent with previous studies. This might be because unmarried women could be more vulnerable to stressful life, heavy and risky activities, inappropriate weight gain and associated chronic disease; consequently, this may result in post term births. Hence, our study result may give insight for future research in determining the association of marital status with post-term birth.

Our study found that, in our population, 38.23 % of neonatal deaths occurred because of pre-term births. Similarly, previous reports showed that 35 % of all neonatal mortality and 28 % of early neonatal mortality were related to pre-term births [9, 38]. It is apparent that premature neonates are more susceptible to death because they are less adaptive to the external environment and they have immature body systems. Conversely, in our study, post-term birth was not associated with neonatal mortality, although this differed from some previous studies [1, 4]. This may be due to the estimation of gestational age using the last menstrual period, as some authors have suggested there is an overestimation of the post-term births using this recall indicator [28, 39] resulting in term births erroneously being categorized as post-term births.

After adjusting for potential confounders, pre-term births were associated with neonatal mortality but post-term births was not associated with neonatal mortality, which is congruent with previous studies [3, 5].

The strength of this study is the use of a prospective cohort study which shows good validity and reliability of data. We were able to consider a large sample size which is good to detect effect on the predictors.

One limitation of this study is that reliance on the gestational age determined using last menstrual period is known to overestimate or underestimate pre-term and post-term births compared to ultrasound [28, 39]. Another limitation of this study is that it was only conducted in government hospitals; hence, it cannot be generalized to all births as it excludes births in private institutions and home deliveries that will exhibit differing health care intervention levels. We had a 5.2 % lost to follow up which might have resulted in an under- or over-estimation of neonatal mortality. The data were not also primarily collected for studying neonatal mortality, and thus we may miss additional variables that could have an association with birth outcome.

Overall, this study reported that the prevalence of pre-term and post-term births to be 8 % and 6 % respectively. Low reported income, underweight, multiple birth, and short body length of the neonate were found to be associated with pre-term births, while high reported income, overweight, and being a single mother were associated with post-term births. The study also reports that pre-term births significantly increase the risk of neonatal deaths.

Considering that the global incidences of pre-term birth and its association with neonatal mortality, the World Health Organization recommends a 50 % reduction in pre-term births in developing countries like Ethiopia [40]. Therefore, to achieve this goal, improving and balancing nutritional and socio-economic statuses of mothers is necessary to reduce pre-term and post term births and mitigate their long-term consequences.

This study suggested that focusing on pre-term births rather than on post-term births is necessary to reduce neonatal mortality. Tigray Region Health Bureau, Ethiopia Ministry of Health, Ethiopian policy makers, program planners and other stakeholders who are engaged on improving neonatal health, including pre-term and post-term births, should be made aware of the predictors in order to reduce neonatal mortality and adverse birth outcomes.

Acknowledgment

We are indebted to all mothers with their neonates participated in this study. We would like to express our gratitude to Berhe Weldearegawi for encouraging us to develop this manuscript.

Funding

We have not received any funding for the conducting, manuscript development and publication of this manuscript.

Availability of data and materials

Data will be shared up on request of interested researchers/readers and will be available at hayetgeb@gmail.com.

Authors’ contributions

HG: conceived the research, performed the analysis and wrote the draft manuscript. AK: participated in interpretation of data, revising the draft manuscript. WT: participated in statistical analysis and interpretation of data, revising draft manuscript. GG: involved in study design, interpretation of data and revising the draft manuscript. YB: involved in interpretation, statistical analysis and polishing the draft manuscript. All authors approved the final version of the manuscript.

Competing interests

The authors declare that they have no competing interests.

Consent for publication

“Not Applicable”.

Ethics approval and consent to participate

This study received approval from the Health Research Ethics Review Committee of College of Health Sciences, Mekelle University. Permission to access participants, participants antenatal care records, and to undertake the study in the selected hospitals was obtained from Tigray Regional Health Bureau and Medical Directors of participating hospitals. Written informed consent was obtained from the mothers.

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